Pinned Repositories
CarND-Behavioral-Cloning-P3
Behavioural Cloning project for the Udacity Self Driving Car Nanodegree that uses deep learning for vehicle control in simulator
CarND-Capstone
Implementation of the Self Driving Car Capstone project for the Udacity Nanodegree program
CarND-Extended-Kalman-Filter-Project
Implementation of Extended Kalman Filter for Udacity Self Driving Car Nanodegree program
CarND-Kidnapped-Vehicle-Project
Implementation of particle filter for sparse localization based on map landmarks for the Udacity Self Driving Car Nanodegree. Project Kidnapped Vehicle
CarND-Path-Planning-Project
Implementation of highway driving using localization and sensor fusion. The code implements behavioral planning in a form of a state machine for lane changes and velocity adjustment
CarND-Traffic-Sign-Classifier-Project
Traffic sign classifier implemented with LeNet neural network architecture using TensorFlow for the Udacity Self-Driving Car Nanodegree program
SFND_2D_Feature_Tracking
2D Feature Tracking project using OpenCV detectors and descriptors for keypoint tracking in multiple frames. The project uses a variety of detectors and descriptors and performs analysis of the best possible combination with regards to processing time and detection precision.
SFND_3D_Object_Tracking
Sensor fusion module for 3D Object Tracking. The project uses a combination of Lidar and Camera data for making an estimation of the distance for the preceding vehicle.
SFND_Radar_Target_Generation_And_Detection
Implementation of Radar Target Generation And Detection project for the Udacity Sensor Fusion Nanodegree program
SFND_Unscented_Kalman_Filter
Unscented Kalman filter implemented for vehicle position and velocity estimation using constant turn rate and velocity process model
Vladimir-Lazic's Repositories
Vladimir-Lazic/SFND_3D_Object_Tracking
Sensor fusion module for 3D Object Tracking. The project uses a combination of Lidar and Camera data for making an estimation of the distance for the preceding vehicle.
Vladimir-Lazic/CarND-Path-Planning-Project
Implementation of highway driving using localization and sensor fusion. The code implements behavioral planning in a form of a state machine for lane changes and velocity adjustment
Vladimir-Lazic/SFND_2D_Feature_Tracking
2D Feature Tracking project using OpenCV detectors and descriptors for keypoint tracking in multiple frames. The project uses a variety of detectors and descriptors and performs analysis of the best possible combination with regards to processing time and detection precision.
Vladimir-Lazic/SFND_Radar_Target_Generation_And_Detection
Implementation of Radar Target Generation And Detection project for the Udacity Sensor Fusion Nanodegree program
Vladimir-Lazic/CarND-Behavioral-Cloning-P3
Behavioural Cloning project for the Udacity Self Driving Car Nanodegree that uses deep learning for vehicle control in simulator
Vladimir-Lazic/CarND-Extended-Kalman-Filter-Project
Implementation of Extended Kalman Filter for Udacity Self Driving Car Nanodegree program
Vladimir-Lazic/CarND-Kidnapped-Vehicle-Project
Implementation of particle filter for sparse localization based on map landmarks for the Udacity Self Driving Car Nanodegree. Project Kidnapped Vehicle
Vladimir-Lazic/CarND-LaneLines-P1
FIrst project for Udacity Self Driving Car Nanodegree
Vladimir-Lazic/CarND-PID-Control-Project
Implementation of a PID controller for vehicle steering and throttle for the Udacity Self-Driving Car Nanodegree
Vladimir-Lazic/CarND-Traffic-Sign-Classifier-Project
Traffic sign classifier implemented with LeNet neural network architecture using TensorFlow for the Udacity Self-Driving Car Nanodegree program
Vladimir-Lazic/SFND_Lidar_Obstacle_Detection
Lidar point cloud processing project. This project performs processing of Lidar point cloud information to determine obstacles. This is done by performing segmentation to determine which points belong to the same 3d plane and clustering to determine which points represent an obstacle on the road
Vladimir-Lazic/SFND_Unscented_Kalman_Filter
Unscented Kalman filter implemented for vehicle position and velocity estimation using constant turn rate and velocity process model
Vladimir-Lazic/CarND-Capstone
Implementation of the Self Driving Car Capstone project for the Udacity Nanodegree program
Vladimir-Lazic/CarND-Advanced-Lane-Lines
Advanced lane detection using perspective transformation